Biology Reference
In-Depth Information
Deisenhofer J, Michel H (1991) Crystallography of chlorophyll proteins.
In: Scheer H
(ed) Chlorophylls. CRC press, Boca Raton, pp 613-625
Duggan JX, Rebeiz CA (1982) Chloroplast biogenesis 37: induction of chlorophyllide
a
(E459F675) accumulation in higher plants. Plant Sci Lett 24:27-37
Dujardin E, Sironval C (1970) The reduction of protochlorphyllide into chlorophyllide III. The
phototransformation of the forms of the protochlorophyllide-lipoprotein complex found in
darkness. Photosynthetica 4:129-138
Ellsworth RK, Aronoff S (1969) Investigations of the biogenesis of chlorophyll
a
. IV. Isolation and
partial characterization of some biosynthetic intermediates between Mg-protoporphine IX
monomethyl ester and Mg-vinylpheoporphine a
5
, obtained from
Chlorella
mutants. Arch
Biochem Biophys 130:374-383
Granick S (1948) Magnesium protoporphyrin as a precursor of chlorophyll in
Chlorella
. J Biol
Chem 175:333-342
Granick S (1950a) Magnesium vinyl pheoporphyrin
a
5
,
another intermediate in the biological
synthesis of chlorophyll. J Biol Chem 183:713-730
Granick S (1950b) The structural and functional relationships between heme and chlorophyll.
Harvey Lect 44:220-245
Henningsen KW, Kahn A (1971) Photoactive subunits of protochlorophyll(ide) holochrome. Plant
Physiol 47:685-690
Hill R, Smith JHC, French CS (1953) The absorption and fluorescence properties of natural
protochlorophylls. Yearb Carneg Inst 52:153-155
Ioannides IM, Fasoula DM, Robertson KR (1994) An evolutionary study of chlorophyll biosyn-
thetic heterogeneity in green plants. Biochem Syst Ecol 22:211-220
Ioannides IM, Shedbalkar VP, Rebeiz CA (1997) Quantitative determination of 2-monovinyl
protochlorophyll(ide)
b
by spectrofluorometry. Anal Biochem 249:241-244
Jones OTG (1963a) Magnesium 2,4-divinyl phaeoporphyrin a
5
monomethyl ester, a
protochlorophyll-like pigment produced by
Rhodopseudomonas spheroides
. Biochem J
89:182-189
Jones OTG (1963b) The inhibition of bacteriochlorphyll biosynthesis in
Rhodopseudomonas
spheroides
by 8-hydroxyquinoline. Biochem J 88:335-343
Kahn A, Boardman NK, Thorne SW (1970) Energy transfer between protochlorophyllide
molecules: evidence for multiple chromophores in the photoactive protochlorophyllide-protein
complex in vivo and in vitro. J Mol Biol 48:85-101
Katz JJ, Dougherty RC, Boucher LC (1966) Infrared and nuclear magnetic resonance spectroscopy
of chlorophyll. In: Vernon LP, Seely GR (eds) The chlorophylls. Academic, New York,
pp 185-251
Kim JS, Kolossov V, Rebeiz CA (1997) Chloroplast biogenesis 76: regulation of 4-vinyl reduction
during conversion of divinyl Mg-protoporphyrin IX to monovinyl protochlorophyllide
a
is
controlled by plastid membrane and stromal factors. Photosynthetica 34:569-581
Kolossov VL, Rebeiz CA (2003) Chloroplast biogenesis 88. Protochlorophyllide
b
occurs in green
but not in etiolated plants. J Biol Chem 278(50):49675-49678
Kolossov VL, Rebeiz CA (2010) Evidence for various 4-vinyl reductase activities in higher plants.
In: Rebeiz CA, Benning C, Bohnert HJ et al (eds) The chloroplast: basics and applications.
Springer, Dordrecht, pp 25-38
Kolossov VL, Kopetz KJ, Rebeiz CA (2003) Chloroplast biogenesis 87: evidence of resonance
excitation energy transfer between tetrapyrrole intermediates of the chlorophyll biosynthetic
pathway and chlorophyll
a
. Photochem Photobiol 78:184-196
Koski VM (1950) Chlorophyll formation in seedlings of
Zea mays
L. Arch Biochem 29:339-343
Mattheis JR, Rebeiz CA (1977a) Chloroplast biogenesis. Net synthesis of protochlorophyllide
from protoporphyrin IX by developing chloroplasts. J Biol Chem 252:8347-8349
Mattheis JR, Rebeiz CA (1977b) Chloroplast biogenesis. Net synthesis of protochlorophyllide from
magnesium protoporphyrin monoester by developing chloroplasts. J Biol Chem 252:4022-4024
Search WWH ::
Custom Search